在前面几篇文章中,我们经常使用的可能就是entc这个命令了,entc这个工具给带来了很多功能,这篇文章主要整理关于ent orm 中Code Generation

之前的例子中有个知识点少整理了,就是关于如果我们想要看orm在执行过程中详细原生sql语句是可以开启Debug看到的,代码如下:

client, err := ent.Open("mysql", "root:123456@tcp(10.211.55.3:3306)/graph_traversal?parseTime=True",ent.Debug())

序言

Initialize A New Schema

通过类似如下命令可以生成Schema 模板:

entc init User Pet

init 将在ent/schema 目录下创建两个schema user.go 和 pet.go ,如果ent目录不存在,则会创建

Generate Assets

在添加了fields 和 edges 后,可以在项目的根目录运行entc generate 或者使用go generate 生成代码

go generate ./ent

Generate 命令生成以下内容:

  • 用于与graph 交互的Client 和Tx对象
  • schema 的CRUD生成器
  • 每个schema类型的Entity对象
  • 用于与构建交互的常量和断言
  • SQL方言的migrate 包

Version Compatibility Between entc And ent

这里主要是关于在项目中使用ent 的时候ent的版本要和entc的包的版本相同,并且项目中使用Go modules 进行包管理

Code Generation Options

要了解更多关于 codegen 选项的信息,entc generate -h :

generate go code for the schema directory

Usage:
  entc generate [flags] path

Examples:
  entc generate ./ent/schema
  entc generate github.com/a8m/x

Flags:
      --header string                           override codegen header
  -h, --help                                    help for generate
      --idtype [int int64 uint uint64 string]   type of the id field (default int)
      --storage string                          storage driver to support in codegen (default "sql")
      --target string                           target directory for codegen
      --template strings                        external templates to execute

Storage

entc 可以为 SQL 和 Gremlin 方言生成资产。

External Templates

接受要执行的外部 Go 模板。如果模板名称已经由 entc 定义,它将覆盖现有的名称。否则,它将把执行输出写入与模板同名的文件。Flag 格式支持如下文件、目录和 glob:

entc generate --template <dir-path> --template glob="path/to/*.tmpl" ./ent/schema

更多的信息和例子可以在外部模板文档中找到

Use entc As A Package

运行 entc 的另一个选项是将其作为一个包使用,如下所示:

package main

import (
    "log"

    "github.com/facebook/ent/entc"
    "github.com/facebook/ent/entc/gen"
    "github.com/facebook/ent/schema/field"
)

func main() {
    err := entc.Generate("./schema", &gen.Config{
        Header: "// Your Custom Header",
        IDType: &field.TypeInfo{Type: field.TypeInt},
    })
    if err != nil {
        log.Fatal("running ent codegen:", err)
    }
}

Schema Description

如果想要得到我们定义的schema的描述信息,可以通过如下命令:

entc describe ./ent/schema

以之前的例子中执行效果如下:

User:
        +-------+--------+--------+----------+----------+---------+---------------+-----------+-----------------------+------------+
        | Field |  Type  | Unique | Optional | Nillable | Default | UpdateDefault | Immutable |       StructTag       | Validators |
        +-------+--------+--------+----------+----------+---------+---------------+-----------+-----------------------+------------+
        | id    | <nil>  | false  | false    | false    | false   | false         | false     | json:"id,omitempty"   |          0 |
        | name  | string | false  | false    | false    | false   | false         | false     | json:"name,omitempty" |          0 |
        +-------+--------+--------+----------+----------+---------+---------------+-----------+-----------------------+------------+
        +-----------+------+---------+-----------+----------+--------+----------+
        |   Edge    | Type | Inverse |  BackRef  | Relation | Unique | Optional |
        +-----------+------+---------+-----------+----------+--------+----------+
        | followers | User | true    | following | M2M      | false  | true     |
        | following | User | false   |           | M2M      | false  | true     |
        +-----------+------+---------+-----------+----------+--------+----------+

CRUD API

Create A New Client

MySQL

package main

import (
    "log"

    "<project>/ent"

    _ "github.com/go-sql-driver/mysql"
)

func main() {
    client, err := ent.Open("mysql", "<user>:<pass>@tcp(<host>:<port>)/<database>?parseTime=True")
    if err != nil {
        log.Fatal(err)
    }
    defer client.Close()
}

PostgreSQL

package main

import (
    "log"

    "<project>/ent"

    _ "github.com/lib/pq"
)

func main() {
    client, err := ent.Open("postgres","host=<host> port=<port> user=<user> dbname=<database> password=<pass>")
    if err != nil {
        log.Fatal(err)
    }
    defer client.Close()
}

SQLite

package main

import (
    "log"

    "<project>/ent"

    _ "github.com/mattn/go-sqlite3"
)

func main() {
    client, err := ent.Open("sqlite3", "file:ent?mode=memory&cache=shared&_fk=1")
    if err != nil {
        log.Fatal(err)
    }
    defer client.Close()
}

Gremlin (AWS Neptune)

package main

import (
    "log"

    "<project>/ent"
)

func main() {
    client, err := ent.Open("gremlin", "http://localhost:8182")
    if err != nil {
        log.Fatal(err)
    }
}

Create An Entity

Save a user.

a8m, err := client.User.    // UserClient.
    Create().               // User create builder.
    SetName("a8m").         // Set field value.
    SetNillableAge(age).    // Avoid nil checks.
    AddGroups(g1, g2).      // Add many edges.
    SetSpouse(nati).        // Set unique edge.
    Save(ctx)               // Create and return.

SaveX a pet; Unlike Save, SaveX panics if an error occurs.

pedro := client.Pet.    // PetClient.
    Create().           // Pet create builder.
    SetName("pedro").   // Set field value.
    SetOwner(a8m).      // Set owner (unique edge).
    SaveX(ctx)          // Create and return.

Create Many

Save a bulk of pets

names := []string{"pedro", "xabi", "layla"}
bulk := make([]*ent.PetCreate, len(names))
for i, name := range names {
    bulk[i] = client.Pet.Create().SetName(name).SetOwner(a8m)
}
pets, err := client.Pet.CreateBulk(bulk...).Save(ctx)

Update One

更新一个从数据库返回的entity

a8m, err = a8m.Update().    // User update builder.
    RemoveGroup(g2).        // Remove specific edge.
    ClearCard().            // Clear unique edge.
    SetAge(30).             // Set field value
    Save(ctx)               // Save and return.

Update By ID

pedro, err := client.Pet.   // PetClient.
    UpdateOneID(id).        // Pet update builder.
    SetName("pedro").       // Set field name.
    SetOwnerID(owner).      // Set unique edge, using id.
    Save(ctx)               // Save and return.

Update Many

以断言进行过滤

n, err := client.User.          // UserClient.
    Update().                   // Pet update builder.
    Where(                      //
        user.Or(                // (age >= 30 OR name = "bar")
            user.AgeEQ(30),     //
            user.Name("bar"),   // AND
        ),                      //
        user.HasFollowers(),    // UserHasFollowers()
    ).                          //
    SetName("foo").             // Set field name.
    Save(ctx)                   // exec and return.

通过edge 断言进行查询

n, err := client.User.          // UserClient.
    Update().                   // Pet update builder.
    Where(                      //
        user.HasFriendsWith(    // UserHasFriendsWith (
            user.Or(            //   age = 20
                user.Age(20),   //      OR
                user.Age(30),   //   age = 30
            )                   // )
        ),                      //
    ).                          //
    SetName("a8m").             // Set field name.
    Save(ctx)                   // exec and return.

Query The Graph

获取所有用户的关注者

users, err := client.User.      // UserClient.
    Query().                    // User query builder.
    Where(user.HasFollowers()). // filter only users with followers.
    All(ctx)                    // query and return.

获取特定用户的所有跟随者; 从graph中的一个节点开始遍历

users, err := a8m.
    QueryFollowers().
    All(ctx)

获取所有宠物的名字

names, err := client.Pet.
    Query().
    Select(pet.FieldName).
    Strings(ctx)

获取所有宠物的名字和年龄

var v []struct {
    Age  int    `json:"age"`
    Name string `json:"name"`
}
err := client.Pet.
    Query().
    Select(pet.FieldAge, pet.FieldName).
    Scan(ctx, &v)
if err != nil {
    log.Fatal(err)
}

Delete One

这个用于如果我们已经通过client查询到了一个entity,然后想要删除这条记录:

err := client.User.
    DeleteOne(a8m).
    Exec(ctx)

Delete by ID.

err := client.User.
    DeleteOneID(id).
    Exec(ctx)

Delete Many

使用断言进行删除

err := client.File.
    Delete().
    Where(file.UpdatedAtLT(date))
    Exec(ctx)

Mutation

通过 entc init 生成的每个schema 都有自己的mutaion,例如我们通过 entc init User Pet, 在通过go generate ./ent 生成的代码中有 ent/mutation.go

在该文件中定义了:

.....
// UserMutation represents an operation that mutate the Users
// nodes in the graph.
type UserMutation struct {
	config
	op            Op
	typ           string
	id            *int
	name          *string
	age           *int
	addage        *int
	clearedFields map[string]struct{}
	done          bool
	oldValue      func(context.Context) (*User, error)
}

.....

// PetMutation represents an operation that mutate the Pets
// nodes in the graph.
type PetMutation struct {
	config
	op            Op
	typ           string
	id            *int
	name          *string
	age           *int
	addage        *int
	clearedFields map[string]struct{}
	done          bool
	oldValue      func(context.Context) (*Pet, error)
}

例如,所有的User builders都共享相同的UserMutaion 对象,左右的builder 类型都继承通用的ent.Mutation接口.

这里所说的 user builders,拿User schema来说指的是UserCreateUserDeleteUserQueryUserUpdate 对象,go generate 生成的代码中,我们可以到

./ent/user_create.go、./ent/user_delete.go、./ent/user_query.go、./ent/user_update.go文件中看到如下定义:

// ./ent/user_create.go

// UserCreate is the builder for creating a User entity.
type UserCreate struct {
	config
	mutation *UserMutation
	hooks    []Hook
}


//./ent/user_delete.go
// UserDelete is the builder for deleting a User entity.
type UserDelete struct {
	config
	hooks      []Hook
	mutation   *UserMutation
	predicates []predicate.User
}

// ./ent/user_query.go
// UserQuery is the builder for querying User entities.
type UserQuery struct {
	config
	limit      *int
	offset     *int
	order      []OrderFunc
	unique     []string
	predicates []predicate.User
	// intermediate query (i.e. traversal path).
	sql  *sql.Selector
	path func(context.Context) (*sql.Selector, error)
}

// ./ent/user_update.go
// UserUpdate is the builder for updating User entities.
type UserUpdate struct {
	config
	hooks      []Hook
	mutation   *UserMutation
	predicates []predicate.User
}

在下面的例子中,ent.UserCreate 和 ent.UserUpdate 都使用一个通用的方法对age 和name 列进行操作:

package main

import (
   "context"
   "log"

   _ "github.com/go-sql-driver/mysql"
   "github.com/peanut-cc/ent_orm_notes/aboutMutaion/ent"
)

func main() {
   client, err := ent.Open("mysql", "root:123456@tcp(10.211.55.3:3306)/aboutMutaion?parseTime=True")
   if err != nil {
      log.Fatal(err)
   }
   defer client.Close()
   ctx := context.Background()
   // run the auto migration tool
   if err := client.Schema.Create(ctx); err != nil {
      log.Fatalf("failed creating schema resources:%v", err)
   }
   Do(ctx, client)
}

func Do(ctx context.Context, client *ent.Client) {
   creator := client.User.Create()
   SetAgeName(creator.Mutation())
   creator.SaveX(ctx)
   updater := client.User.UpdateOneID(1)
   SetAgeName(updater.Mutation())
   updater.SaveX(ctx)
}

// SetAgeName sets the age and the name for any mutation.
func SetAgeName(m *ent.UserMutation) {
   m.SetAge(32)
   m.SetName("Ariel")
}

在某些情况下,你希望对多个不同的类型应用同一个方法,对于这种情况,要么使用通用的ent.Mutation 接口,或者自己实现一个接口,代码如下:

func Do2(ctx context.Context, client *ent.Client) {
   creator1 := client.User.Create().SetAge(18)
   SetName(creator1.Mutation(), "a8m")
   creator1.SaveX(ctx)
   creator2 := client.Pet.Create().SetAge(16)
   SetName(creator2.Mutation(), "pedro")
   creator2.SaveX(ctx)
}

// SetNamer wraps the 2 methods for getting
// and setting the "name" field in mutations.
type SetNamer interface {
   SetName(string)
   Name() (string, bool)
}

func SetName(m SetNamer, name string) {
   if _, exist := m.Name(); !exist {
      m.SetName(name)
   }
}

Graph Traversal

在这个部分的例子中会使用如下的Graph

ent orm笔记4---Code Generation-LMLPHP

ent orm笔记4---Code Generation-LMLPHP

上面的遍历从一个 Group 实体开始,继续到它的 admin (edge) ,继续到它的朋友(edge) ,获取他们的宠物(edge) ,获取每个宠物的朋友(edge) ,并请求它们的主人

func Traverse(ctx context.Context, client *ent.Client) error {
    owner, err := client.Group.         // GroupClient.
        Query().                        // Query builder.
        Where(group.Name("Github")).    // Filter only Github group (only 1).
        QueryAdmin().                   // Getting Dan.
        QueryFriends().                 // Getting Dan's friends: [Ariel].
        QueryPets().                    // Their pets: [Pedro, Xabi].
        QueryFriends().                 // Pedro's friends: [Coco], Xabi's friends: [].
        QueryOwner().                   // Coco's owner: Alex.
        Only(ctx)                       // Expect only one entity to return in the query.
    if err != nil {
        return fmt.Errorf("failed querying the owner: %v", err)
    }
    fmt.Println(owner)
    // Output:
    // User(id=3, age=37, name=Alex)
    return nil
}

下面的遍历如何?

ent orm笔记4---Code Generation-LMLPHP

我们希望得到所有宠物(entities)的所有者(edge)是朋友(edge)的一些群管理员(edge)。

func Traverse2(ctx context.Context, client *ent.Client) error {
	pets, err := client.Pet.
		Query().
		Where(
			pet.HasOwnerWith(
				user.HasFriendsWith(
					user.HasManage(),
				),
			),
		).
		All(ctx)
	if err != nil {
		return fmt.Errorf("failed querying the pets: %v", err)
	}
	fmt.Println(pets)
	// Output:
	// [Pet(id=1, name=Pedro) Pet(id=2, name=Xabi)]
	return nil
}

上面的查询中,查询所有的宠物,条件是: 宠物要有主人,同时宠物的主人是要有朋友,同时该主人还要属于管理员

Eager Loading

ent 支持通过它们的edges 查询,并将关联的entities 添加到返回的对象中

通过下面的例子理解:

ent orm笔记4---Code Generation-LMLPHP

查询上面关系中所有用户和它们的宠物,代码如下:

func edgerLoading(ctx context.Context, client *ent.Client) {
   users, err := client.User.Query().WithPets().All(ctx)
   if err != nil {
      log.Fatalf("user query failed:%v", err)
   }
   log.Println(users)
   for _, u := range users {
      for _, p := range u.Edges.Pets {
         log.Printf("user (%v) -- > Pet (%v)\n", u.Name, p.Name)
      }
   }

}

完整的代码在:https://github.com/peanut-cc/ent_orm_notes/graph_traversal

查询的结果如下:

2020/09/01 20:09:07 [User(id=1, age=29, name=Dan) User(id=2, age=30, name=Ariel) User(id=3, age=37, name=Alex) User(id=4, age=18, name=peanut)]
2020/09/01 20:09:07 user (Ariel) -- > Pet (Pedro)
2020/09/01 20:09:07 user (Ariel) -- > Pet (Xabi)
2020/09/01 20:09:07 user (Alex) -- > Pet (Coco)

预加载允许查询多个关联,包括嵌套关联,还可以过滤,排序或限制查询结果,例如:

func edgerLoading2(ctx context.Context, client *ent.Client) {
   users, err := client.User.
      Query().
      Where(
         user.AgeGT(18),
      ).
      WithPets().
      WithGroups(func(q *ent.GroupQuery) {
         q.Limit(5)
         q.WithUsers().Limit(5)
      }).All(ctx)
   if err != nil {
      log.Fatalf("user query failed:%v", err)
   }
   log.Println(users)
   for _, u := range users {
      for _, p := range u.Edges.Pets {
         log.Printf("user (%v) --> Pet (%v)\n", u.Name, p.Name)
      }
      for _, g := range u.Edges.Groups {
         log.Printf("user (%v) -- Group (%v)\n", u.Name, g.Name)
      }
   }

}

每个query-builder都有一个方法列表,其形式为 With<E>(...func(<N>Query))

<E>代表边缘名称(像WithGroups) ,< N> 代表边缘类型(像GroupQuery)。

注意,只有 SQL 方言支持这个特性

Aggregation

Group By

按所有用户的姓名和年龄字段分组,并计算其总年龄。

package main

import (
	"context"
	"log"

	"github.com/peanut-cc/ent_orm_notes/groupBy/ent/user"

	_ "github.com/go-sql-driver/mysql"

	"github.com/peanut-cc/ent_orm_notes/groupBy/ent"
)

func main() {
	client, err := ent.Open("mysql", "root:123456@tcp(10.211.55.3:3306)/groupBy?parseTime=True",
		ent.Debug())
	if err != nil {
		log.Fatal(err)
	}
	defer client.Close()
	ctx := context.Background()
	// run the auto migration tool
	if err := client.Schema.Create(ctx); err != nil {
		log.Fatalf("failed creating schema resources:%v", err)
	}
	GenData(ctx, client)
	Do(ctx, client)

}

func GenData(ctx context.Context, client *ent.Client) {
	client.User.Create().SetName("peanut").SetAge(18).SaveX(ctx)
	client.User.Create().SetName("jack").SetAge(20).SaveX(ctx)
	client.User.Create().SetName("steve").SetAge(22).SaveX(ctx)
	client.User.Create().SetName("peanut-cc").SetAge(18).SaveX(ctx)
	client.User.Create().SetName("jack-dd").SetAge(18).SaveX(ctx)
}

func Do(ctx context.Context, client *ent.Client) {
	var v []struct {
		Name  string `json:"name"`
		Age   int    `json:"age"`
		Sum   int    `json:"sum"`
		Count int    `json:"count"`
	}
	client.User.
		Query().
		GroupBy(
			user.FieldName, user.FieldAge,
		).
		Aggregate(
			ent.Count(),
			ent.Sum(user.FieldAge),
		).
		ScanX(ctx, &v)
	log.Println(v)

}

按一个字段分组,例子如下:

func Do2(ctx context.Context, client *ent.Client) {
	names := client.User.Query().GroupBy(user.FieldName).StringsX(ctx)
	log.Println(names)
}

Predicates

Field Predicates

  • Bool:
    • =, !=
  • Numberic:
    • =, !=, >, <, >=, <=,
    • IN, NOT IN
  • Time:
    • =, !=, >, <, >=, <=
    • IN, NOT IN
  • String:
    • =, !=, >, <, >=, <=
    • IN, NOT IN
    • Contains, HasPrefix, HasSuffix
    • ContainsFold, EqualFold (SQL specific)
  • Optional fields:
    • IsNil, NotNil

Edge Predicates

HasEdge 例如,查询所有宠物的所有者,使用:

 client.Pet.
      Query().
      Where(pet.HasOwner()).
      All(ctx)

HasEdgeWith

 client.Pet.
      Query().
      Where(pet.HasOwnerWith(user.Name("a8m"))).
      All(ctx)

Negation (NOT)

client.Pet.
    Query().
    Where(pet.Not(pet.NameHasPrefix("Ari"))).
    All(ctx)

Disjunction (OR)

client.Pet.
    Query().
    Where(
        pet.Or(
            pet.HasOwner(),
            pet.Not(pet.HasFriends()),
        )
    ).
    All(ctx)

Conjunction (AND)

client.Pet.
    Query().
    Where(
        pet.And(
            pet.HasOwner(),
            pet.Not(pet.HasFriends()),
        )
    ).
    All(ctx)

Custom Predicates

如果想编写自己的特定于方言的逻辑,Custom predicates可能很有用。

pets := client.Pet.
    Query().
    Where(predicate.Pet(func(s *sql.Selector) {
        s.Where(sql.InInts(pet.OwnerColumn, 1, 2, 3))
    })).
    AllX(ctx)

Paging And Ordering

Limit

将查询结果限制为 n 个实体。

users, err := client.User.
    Query().
    Limit(n).
    All(ctx)

Offset

设置从查询返回的第一个最大数量。

users, err := client.User.
    Query().
    Offset(10).
    All(ctx)

Ordering

Order 返回按一个或多个字段的值排序的实体。

users, err := client.User.Query().
    Order(ent.Asc(user.FieldName)).
    All(ctx)

延伸阅读

09-02 16:47